The solution provided by my professor is 1/131, with no direct clarification of the answer.

ShivamS

2012-10-11 23:58:30

I submitted my results today at Yale and recieved an almost-perfect mark. Apparently, my answer to the particle question, despite the fact that Bobbym agreed with me, is incorrect.

bobbym

2012-10-10 08:58:06

Yes, I always try to use the username. It is the name the person chose to sign in here so it is obviously there preferred moniker.

anonimnystefy

2012-10-10 08:55:39

Yes. You said so yourself.

bobbym

2012-10-09 21:23:31

Are you sure about that?

anonimnystefy

2012-10-09 18:50:50

bobbym calls everybody by their forum username.

ShivamS

2012-10-09 10:16:43

Oh, okay. By the way, you can call me Shivam or Cless. Anyways, I didn't go to Yale today so I will submit my results later.

bobbym

2012-10-08 14:18:18

Hi Shivamcoder3013;

What anonimnystefy is saying is just because you go to infinity that does not mean you have found a maximum. There is a way to prove have the largest value at 75.

ShivamS

2012-10-08 12:36:40

By the way, I apologize for my improper LaTeX syntax.

ShivamS

2012-10-08 12:34:58

Well... Using L'Hopitals Rule, we simply take the derivative of the numerator and the denominator separately to get

. Then simply calculate the limit by cancelling the terms to receive the final answer 75.

anonimnystefy

2012-10-08 11:04:04

Yes, and that is what is needed to be done in order for the proof to be complete.

bobbym

2012-10-08 06:16:19

That is very good and true. There is a way to determine where the maximum value is and prove that it occurs at infinity.

anonimnystefy

2012-10-08 04:42:02

Not true. That just gets you the limit, but doesn't guarantee that that value is the maximum of the function.

bobbym

2012-10-07 23:19:17

You prove it by taking the limit of that function.